Strain-driven Kovacs-like memory effect in glasses

Yu Tong; Lijian Song; Yurong Gao; Longlong Fan; Fucheng Li; Yiming Yang; Guang Mo; Yanhui Liu; Xiaoxue Shui; Yan Zhang; Meng Gao; Juntao Huo; Jichao Qiao; Eloi Pineda; Jun Qiang Wang

doi:10.1038/s41467-023-44187-x

Strain-driven Kovacs-like memory effect in glasses

Yu Tong, Lijian Song, Yurong Gao, Longlong Fan, Fucheng Li, Yiming Yang, Guang Mo, Yanhui Liu, Xiaoxue Shui, Yan Zhang, Meng Gao, Juntao Huo, Jichao Qiao, Eloi Pineda, Jun Qiang Wang

School of Mechanics,Civil Engineering and Architecture

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Studying complex relaxation behaviors is of critical importance for understanding the nature of glasses. Here we report a Kovacs-like memory effect in glasses, manifested by non-monotonic stress relaxation during two-step high-to-low strains stimulations. During the stress relaxation process, if the strain jumps from a higher state to a lower state, the stress does not continue to decrease, but increases first and then decreases. The memory effect becomes stronger when the atomic motions become highly collective with a large activation energy, e.g. the strain in the first stage is larger, the temperature is higher, and the stimulation is longer. The physical origin of the stress memory effect is studied based on the relaxation kinetics and the in-situ synchrotron X-ray experiments. The stress memory effect is probably a universal phenomenon in different types of glasses.

Original language	English
Article number	8407
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-44187-x
State	Published - Dec 2023

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title = "Strain-driven Kovacs-like memory effect in glasses",

abstract = "Studying complex relaxation behaviors is of critical importance for understanding the nature of glasses. Here we report a Kovacs-like memory effect in glasses, manifested by non-monotonic stress relaxation during two-step high-to-low strains stimulations. During the stress relaxation process, if the strain jumps from a higher state to a lower state, the stress does not continue to decrease, but increases first and then decreases. The memory effect becomes stronger when the atomic motions become highly collective with a large activation energy, e.g. the strain in the first stage is larger, the temperature is higher, and the stimulation is longer. The physical origin of the stress memory effect is studied based on the relaxation kinetics and the in-situ synchrotron X-ray experiments. The stress memory effect is probably a universal phenomenon in different types of glasses.",

author = "Yu Tong and Lijian Song and Yurong Gao and Longlong Fan and Fucheng Li and Yiming Yang and Guang Mo and Yanhui Liu and Xiaoxue Shui and Yan Zhang and Meng Gao and Juntao Huo and Jichao Qiao and Eloi Pineda and Wang, {Jun Qiang}",

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doi = "10.1038/s41467-023-44187-x",

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T1 - Strain-driven Kovacs-like memory effect in glasses

AU - Tong, Yu

AU - Song, Lijian

AU - Gao, Yurong

AU - Fan, Longlong

AU - Li, Fucheng

AU - Yang, Yiming

AU - Mo, Guang

AU - Liu, Yanhui

AU - Shui, Xiaoxue

AU - Zhang, Yan

AU - Gao, Meng

AU - Huo, Juntao

AU - Qiao, Jichao

AU - Pineda, Eloi

AU - Wang, Jun Qiang

PY - 2023/12

Y1 - 2023/12

N2 - Studying complex relaxation behaviors is of critical importance for understanding the nature of glasses. Here we report a Kovacs-like memory effect in glasses, manifested by non-monotonic stress relaxation during two-step high-to-low strains stimulations. During the stress relaxation process, if the strain jumps from a higher state to a lower state, the stress does not continue to decrease, but increases first and then decreases. The memory effect becomes stronger when the atomic motions become highly collective with a large activation energy, e.g. the strain in the first stage is larger, the temperature is higher, and the stimulation is longer. The physical origin of the stress memory effect is studied based on the relaxation kinetics and the in-situ synchrotron X-ray experiments. The stress memory effect is probably a universal phenomenon in different types of glasses.

AB - Studying complex relaxation behaviors is of critical importance for understanding the nature of glasses. Here we report a Kovacs-like memory effect in glasses, manifested by non-monotonic stress relaxation during two-step high-to-low strains stimulations. During the stress relaxation process, if the strain jumps from a higher state to a lower state, the stress does not continue to decrease, but increases first and then decreases. The memory effect becomes stronger when the atomic motions become highly collective with a large activation energy, e.g. the strain in the first stage is larger, the temperature is higher, and the stimulation is longer. The physical origin of the stress memory effect is studied based on the relaxation kinetics and the in-situ synchrotron X-ray experiments. The stress memory effect is probably a universal phenomenon in different types of glasses.

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SN - 2041-1723

VL - 14

JO - Nature Communications

JF - Nature Communications

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ER -

Strain-driven Kovacs-like memory effect in glasses

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